/* Copyright (c) Citrix Systems, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, * with or without modification, are permitted provided * that the following conditions are met: * * * Redistributions of source code must retain the above * copyright notice, this list of conditions and the * following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the * following disclaimer in the documentation and/or other * materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ using System; using System.Collections.Generic; using XenAdmin.Core; using XenAPI; namespace XenAdmin.XenSearch { public static class PropertyAccessorHelper { public static MetricUpdater MetricUpdater; static PropertyAccessorHelper() { MetricUpdater = new MetricUpdater(); } public static string vmCpuUsageString(VM vm) { return vmCpuUsageStringByMetric(vm, MetricUpdater); } public static string vmCpuUsageStringByMetric(VM vm, MetricUpdater MetricUpdater) { VM_metrics metrics = vm.Connection.Resolve(vm.metrics); if (metrics == null) return ""; double sum = 0; int total = (int)metrics.VCPUs_number; for (int i = 0; i < total; i++) { sum += MetricUpdater.GetValue(vm, String.Format("cpu{0}", i.ToString())); } if (total == 0||Double.IsNaN(sum)) return Messages.HYPHEN; if (total == 1) return String.Format(Messages.QUERY_PERCENT_OF_CPU, (sum * 100).ToString("0.")); return String.Format(Messages.QUERY_PERCENT_OF_CPUS, ((sum * 100) / total).ToString("0."), total); } public static int vmCpuUsageRank(VM vm) { VM_metrics metrics = vm.Connection.Resolve(vm.metrics); if (metrics == null) return 0; double sum = 0; int total = (int)metrics.VCPUs_number; for (int i = 0; i < total; i++) { sum += MetricUpdater.GetValue(vm, String.Format("cpu{0}", i.ToString())); } return (int)Math.Round((sum * 100.0) / (double)total); } public static string vdiMemoryUsageString(VDI vdi) { long total = vdi.virtual_size; if (total == 0) return Messages.HYPHEN; return Util.MemorySizeStringSuitableUnits(total, false); } public static string vmMemoryUsageString(VM vm) { return vmMemoryUsageStringByMetric(vm, MetricUpdater); } public static string vmMemoryUsageStringByMetric(VM vm, MetricUpdater MetricUpdater) { double free = MetricUpdater.GetValue(vm, "memory_internal_free"); double total = MetricUpdater.GetValue(vm, "memory"); if (total == 0 || Double.IsNaN(total) || Double.IsNaN(free) || total < (free * Util.BINARY_KILO)) return Messages.HYPHEN; return String.Format(Messages.QUERY_MEMORY_USAGE, Util.MemorySizeStringSuitableUnits((total - (free * Util.BINARY_KILO)), false), Util.MemorySizeStringSuitableUnits(total, false)); } public static string vmMemoryUsagePercentageStringByMetric(VM vm, MetricUpdater MetricUpdater) { double free = MetricUpdater.GetValue(vm, "memory_internal_free"); double total = MetricUpdater.GetValue(vm, "memory"); if (total == 0 || Double.IsNaN(total) || Double.IsNaN(free)) return Messages.HYPHEN; return String.Format(Messages.QUERY_MEMORY_PERCENT, ((total - (free * Util.BINARY_KILO)) / total * 100.0).ToString("0."), Util.MemorySizeStringSuitableUnits(total, false)); } public static int vmMemoryUsageRank(VM vm) { double free = MetricUpdater.GetValue(vm, "memory_internal_free"); double total = MetricUpdater.GetValue(vm, "memory"); return (int)Math.Round(((total - (free * Util.BINARY_KILO)) * 100.0) / total); } public static double vmMemoryUsageValue(VM vm) { double free = MetricUpdater.GetValue(vm, "memory_internal_free"); double total = MetricUpdater.GetValue(vm, "memory"); return total - (free * Util.BINARY_KILO); } public static string vmDiskUsageString(VM vm) { double sum = 0; double max = 0; int i = 0; foreach (VBD vbd in vm.Connection.ResolveAll(vm.VBDs)) { double value = MetricUpdater.GetValue(vm, String.Format("vbd_{0}_read", vbd.device)) + MetricUpdater.GetValue(vm, String.Format("vbd_{0}_write", vbd.device)); sum += value; if (value > max) max = value; i++; } if (Double.IsNaN(sum)) return Messages.HYPHEN; return i == 0 ? Messages.HYPHEN : String.Format(Messages.QUERY_DATA_AVG_MAX, (sum / (Util.BINARY_KILO * i)).ToString("0."), (max / Util.BINARY_KILO).ToString("0.")); } public static string vmNetworkUsageString(VM vm) { double sum = 0; double max = 0; int i = 0; foreach (VIF vif in vm.Connection.ResolveAll(vm.VIFs)) { double value = MetricUpdater.GetValue(vm, String.Format("vif_{0}_rx", vif.device)) + MetricUpdater.GetValue(vm, String.Format("vbd_{0}_tx", vif.device)); sum += value; if (value > max) max = value; i++; } if (Double.IsNaN(sum)) return Messages.HYPHEN; return i == 0 ? Messages.HYPHEN : String.Format(Messages.QUERY_DATA_AVG_MAX, (sum / (Util.BINARY_KILO * i)).ToString("0."), (max / Util.BINARY_KILO).ToString("0.")); } public static string vmIPAddresses(VM vm) { VM_guest_metrics metrics = vm.Connection.Resolve(vm.guest_metrics); if (metrics == null) return Messages.HYPHEN; List addresses = new List(metrics.networks.Values); if (addresses.Count > 0) return String.Join(", ", addresses.ToArray()); else return Messages.HYPHEN; } public static string hostCpuUsageStringByMetric(Host host, MetricUpdater MetricUpdater) { double sum = 0; if (host.host_CPUs == null) return Messages.HYPHEN; int total = host.host_CPUs.Count; for (int i = 0; i < total; i++) { sum += MetricUpdater.GetValue(host, String.Format("cpu{0}", i.ToString())); } if (total == 0 || Double.IsNaN(sum)) return Messages.HYPHEN; if (total == 1) return String.Format(Messages.QUERY_PERCENT_OF_CPU, (sum * 100).ToString("0.")); return String.Format(Messages.QUERY_PERCENT_OF_CPUS, ((sum * 100) / total).ToString("0."), total); } public static string hostCpuUsageString(Host host) { return hostCpuUsageStringByMetric(host, MetricUpdater); } public static int hostCpuUsageRank(Host host) { double sum = 0; if (host.host_CPUs == null) return 0; int total = host.host_CPUs.Count; for (int i = 0; i < total; i++) { sum += MetricUpdater.GetValue(host, String.Format("cpu{0}", i.ToString())); } return (int)Math.Round((sum * 100.0) / (double)total); } public static string hostMemoryUsageStringByMetric(Host host, MetricUpdater MetricUpdater) { double free = MetricUpdater.GetValue(host, "memory_free_kib"); double total = MetricUpdater.GetValue(host, "memory_total_kib"); if (total == 0 || Double.IsNaN(total)|| Double.IsNaN(free)) return Messages.HYPHEN; return String.Format(Messages.QUERY_MEMORY_USAGE, Util.MemorySizeStringSuitableUnits((total - free) * Util.BINARY_KILO, false), Util.MemorySizeStringSuitableUnits(total * Util.BINARY_KILO, false)); } public static string hostMemoryUsagePercentageStringByMetric(Host host, MetricUpdater MetricUpdater) { double free = MetricUpdater.GetValue(host, "memory_free_kib"); double total = MetricUpdater.GetValue(host, "memory_total_kib"); if (total == 0 || Double.IsNaN(total) || Double.IsNaN(free)) return Messages.HYPHEN; return String.Format(Messages.QUERY_MEMORY_PERCENT, ((total - free) / total * 100.0).ToString("0."), Util.MemorySizeStringSuitableUnits(total * Util.BINARY_KILO, false)); } public static string hostMemoryUsageString(Host host) { return hostMemoryUsageStringByMetric(host, MetricUpdater); } public static int hostMemoryUsageRank(Host host) { double free = MetricUpdater.GetValue(host, "memory_free_kib"); double total = MetricUpdater.GetValue(host, "memory_total_kib"); return (int)Math.Round(((total - free) * 100.0) / total); } public static double hostMemoryUsageValue(Host host) { double free = MetricUpdater.GetValue(host, "memory_free_kib"); double total = MetricUpdater.GetValue(host, "memory_total_kib"); return total - free; } public static string hostNetworkUsageStringByMetric(Host host, MetricUpdater MetricUpdater) { double sum = 0; double max = 0; int i = 0; foreach (PIF pif in host.Connection.ResolveAll(host.PIFs)) { if (!pif.physical) continue; double value = MetricUpdater.GetValue(host, String.Format("pif_{0}_rx", pif.device)) + MetricUpdater.GetValue(host, String.Format("vbd_{0}_tx", pif.device)); sum += value; if (value > max) max = value; i++; } if (Double.IsNaN(sum)) return Messages.HYPHEN; return i == 0 ? Messages.HYPHEN : String.Format(Messages.QUERY_DATA_AVG_MAX, (sum / (Util.BINARY_KILO * i)).ToString("0."), (max / Util.BINARY_KILO).ToString("0.")); } public static string hostNetworkUsageString(Host host) { return hostNetworkUsageStringByMetric(host, MetricUpdater); } public static String GetPoolHAStatus(Pool pool) { if (!pool.ha_enabled) return Messages.DISABLED; if (pool.ha_plan_exists_for == 1) return String.Format(Messages.POOL_FAILURE_TOLERATE, pool.ha_plan_exists_for); return String.Format(Messages.POOL_FAILURES_TOLERATE, pool.ha_plan_exists_for); } public static string GetSRHAStatus(SR sr) { Pool pool = Helpers.GetPoolOfOne(sr.Connection); if (pool == null || pool.ha_statefiles.Length <= 0) return String.Empty; if (sr.VDIs.Contains(new XenRef(pool.ha_statefiles[0]))) return Messages.HA_HEARTBEAT_SR; return String.Empty; } public static string GetVMHAStatus(VM vm) { if (!vm.is_a_real_vm) return "-"; return Helpers.RestartPriorityI18n(vm.HARestartPriority); } public static string PGPUMemoryUsageString(PGPU pGpu, MetricUpdater MetricUpdater) { PCI pci = pGpu.Connection.Resolve(pGpu.PCI); string pci_id = pci.pci_id.Replace(@":", "/"); Host host = pGpu.Connection.Resolve(pGpu.host); double free = MetricUpdater.GetValue(host, String.Format("gpu_memory_free_{0}", pci_id)); double used = MetricUpdater.GetValue(host, String.Format("gpu_memory_used_{0}", pci_id)); double total = free + used; if (total == 0 || Double.IsNaN(total) || Double.IsNaN(free)) return Messages.HYPHEN; else return String.Format(Messages.QUERY_MEMORY_USAGE, (used / (free + used) * 100).ToString("0.") + "%", Util.MemorySizeStringSuitableUnits(free + used, false)); } public static string PGPUTemperatureString(PGPU pGpu, MetricUpdater MetricUpdater) { PCI pci = pGpu.Connection.Resolve(pGpu.PCI); Host host = pGpu.Connection.Resolve(pGpu.host); string pci_id = pci.pci_id.Replace(@":", "/"); double temperture = MetricUpdater.GetValue(host, String.Format("gpu_temperature_{0}", pci_id)); if (temperture == 0 || Double.IsNaN(temperture) || Double.IsNaN(temperture)) return Messages.HYPHEN; else return temperture.ToString(); } public static string PGPUPowerUsageString(PGPU pGpu, MetricUpdater MetricUpdater) { PCI pci = pGpu.Connection.Resolve(pGpu.PCI); string pci_id = pci.pci_id.Replace(@":", "/"); Host host = pGpu.Connection.Resolve(pGpu.host); double powerUsage = MetricUpdater.GetValue(host, String.Format("gpu_power_usage_{0}", pci_id)); if (powerUsage == 0 || Double.IsNaN(powerUsage) || Double.IsNaN(powerUsage)) return Messages.HYPHEN; else return powerUsage.ToString(); } public static string PGPUUtilisationString(PGPU pGpu, MetricUpdater MetricUpdater) { PCI pci = pGpu.Connection.Resolve(pGpu.PCI); Host host = pGpu.Connection.Resolve(pGpu.host); string pci_id = pci.pci_id.Replace(@":", "/"); double utilisation = MetricUpdater.GetValue(host, String.Format("gpu_utilisation_computer_{0}", pci_id)); if (utilisation == 0 || Double.IsNaN(utilisation) || Double.IsNaN(utilisation)) return Messages.HYPHEN; else return utilisation.ToString(); } } }